The converging nozzle has an exit diameter of 0.25 mm. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPaMPa and temperature of 1500 KK . The mixture has k� = 1.38 and R� = 296 J/[kg⋅K]J/[kg⋅K] . Determine the mass flow from the nozzle when the backpressure is a vacuum.Express your answer using three significant figures. The converging nozzle has an exit diameter of 0.25 m. Thefuel-oxidizer mixture within the large tank has an absolutepressure of 4 MPa and temperature of 1500 K. Themixture has k = 1.38 and R = 296 J/kg-K]. (Figure 1)Figure1 of 1Part ADetermine the mass flow from the nozzle when the backpressure is a vacuum.Express your answer using three significant figures.15. ΑΣΦ | 41vecSubmitProvide FeedbackRequest AnswerHey?kg/sNext >

given- dia of nozzle d = 0.25 m P0=4 Mpa…

The converging nozzle has an exit diameter of 0.25 mm. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPaMPa and temperature of 1500 KK . The mixture has k� = 1.38 and R� = 296 J/[kg⋅K]J/[kg⋅K] . Determine the mass flow from the nozzle when the backpressure is a vacuum. Express your answer using three significant figures

The converging nozzle has an exit diameter of 0.25 mm. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPaMPa and temperature of 1500 KK . The mixture has k� = 1.38 and R� = 296 J/[kg⋅K]J/[kg⋅K] . Determine the mass flow from the nozzle when the backpressure is a vacuum. Express your answer using three significant figures

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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The converging nozzle has an exit diameter of 0.25 m. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPa and temperature of 1500 K. The mixture has k = 1.38 and R = 296 J/kg-K]. (Figure 1) Figure 0.25 m F 1 of 1 Part A Determine the mass flow from the nozzle when the backpressure is a vacuum. Express your answer using three significant figures. VE| ΑΣΦ | 11 | vec m= Submit Provide Feedback Request Answer ? kg/s Next >
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